Critical determinants of combined sprint and endurance performance: an integrative analysis from muscle fiber to the human body

Abstract: Optimizing physical performance is a major goal in current physiology. However, basic understanding of combining high sprint and endurance performance is currently lacking. This study identifies critical determinants of combined sprint and endurance performance using multiple regression analyses of physiologic determinants at different biologic levels. Cyclists, including 6 international sprint, 8 team pursuit, and 14 road cyclists, completed a Wingate test and 15-km time trial to obtain sprint and endurance p… Show more

“…The difference between sexes is likely due to reduced oxygen supply in females because of their lower haemoglobin concentrations (Mitchell et al, 1992). Our cross-sectional results indicate an inverse relationship between normalized endurance and sprint capacity in oarsmen that is consistent with the inverse relationship between muscle fibre maximal oxygen consumption and fibre cross-sectional area (Van der Zwaard et al, 2018;Van Wessel et al, 2010).…”

“…When divided by body mass, maximal oxygen consumption and Wingate peak power were negatively related in males and were not significantly related in females (r = −0.68 and r = −0.60, respectively, Figure 3(A)). Maximal oxygen consumption and peak power normalized to lean body mass 2/3 were not related in females, but showed an inverse relationship in male rowers (r = −0.94, 10♂, Figure 3(B)) consistent with the inverse relationship between muscle fibre maximal oxygen consumption and fibre cross-sectional area (Van der Zwaard et al, 2018;Van Wessel et al, 2010). Maximal oxygen consumption per lean body mass 2/3 was not significantly related to physiological cross-sectional area (r = 0.28, n = 15), muscle volume (r = 0.22) or fascicle length (r = 0.13).…”

“…Maximal oxygen consumption, is one of the main determinants of endurance capacity (Joyner & Coyle, 2008;Van der Zwaard et al, 2018), was obtained from a maximal incremental test to voluntary exhaustion. The test consisted of a 7 × 4 min exercise protocol with 1-min rest between blocks on the Concept II ergometer (Model D).…”

“…Combining high sprint and endurance capacity is challenging. Increasing both muscle fibre size and muscle fibre oxidative capacity is strongly endeavoured, but also difficult, as these are inversely related across species (including untrained humans) (Van Wessel, de Haan, van der Laarse, & Jaspers, 2010), within animal species (Sieck, Zhan, Prakash, Daood, & Watchko, 1995) and within well-trained competitive cyclists (Van der Zwaard et al, 2018). In addition, training-induced muscle adaptations are conflicting.…”

“…Physiological cross-sectional area increases with muscle fibre hypertrophy in response to resistance training (Folland & Williams, 2007). Muscle fibre cross-sectional area is, however, inversely related to muscle fibre maximal oxygen consumption (Van der Zwaard et al, 2018;Van Wessel et al, 2010). This suggests that enlarging the fibre cross-sectional area not only increases pennation angle (Huijing, 1998), but also constrains oxygen diffusion (as it increases the diffusion distance).…”

Muscle morphology of the vastus lateralis is strongly related to ergometer performance, sprint capacity and endurance capacity in Olympic rowers

“…The difference between sexes is likely due to reduced oxygen supply in females because of their lower haemoglobin concentrations (Mitchell et al, 1992). Our cross-sectional results indicate an inverse relationship between normalized endurance and sprint capacity in oarsmen that is consistent with the inverse relationship between muscle fibre maximal oxygen consumption and fibre cross-sectional area (Van der Zwaard et al, 2018;Van Wessel et al, 2010).…”

“…When divided by body mass, maximal oxygen consumption and Wingate peak power were negatively related in males and were not significantly related in females (r = −0.68 and r = −0.60, respectively, Figure 3(A)). Maximal oxygen consumption and peak power normalized to lean body mass 2/3 were not related in females, but showed an inverse relationship in male rowers (r = −0.94, 10♂, Figure 3(B)) consistent with the inverse relationship between muscle fibre maximal oxygen consumption and fibre cross-sectional area (Van der Zwaard et al, 2018;Van Wessel et al, 2010). Maximal oxygen consumption per lean body mass 2/3 was not significantly related to physiological cross-sectional area (r = 0.28, n = 15), muscle volume (r = 0.22) or fascicle length (r = 0.13).…”

“…Maximal oxygen consumption, is one of the main determinants of endurance capacity (Joyner & Coyle, 2008;Van der Zwaard et al, 2018), was obtained from a maximal incremental test to voluntary exhaustion. The test consisted of a 7 × 4 min exercise protocol with 1-min rest between blocks on the Concept II ergometer (Model D).…”

“…Combining high sprint and endurance capacity is challenging. Increasing both muscle fibre size and muscle fibre oxidative capacity is strongly endeavoured, but also difficult, as these are inversely related across species (including untrained humans) (Van Wessel, de Haan, van der Laarse, & Jaspers, 2010), within animal species (Sieck, Zhan, Prakash, Daood, & Watchko, 1995) and within well-trained competitive cyclists (Van der Zwaard et al, 2018). In addition, training-induced muscle adaptations are conflicting.…”

“…Physiological cross-sectional area increases with muscle fibre hypertrophy in response to resistance training (Folland & Williams, 2007). Muscle fibre cross-sectional area is, however, inversely related to muscle fibre maximal oxygen consumption (Van der Zwaard et al, 2018;Van Wessel et al, 2010). This suggests that enlarging the fibre cross-sectional area not only increases pennation angle (Huijing, 1998), but also constrains oxygen diffusion (as it increases the diffusion distance).…”

Muscle morphology of the vastus lateralis is strongly related to ergometer performance, sprint capacity and endurance capacity in Olympic rowers

Low myoglobin concentration in skeletal muscle of elite cyclists is associated with low mRNA expression levels

Early adjustments in mitochondrial structure and function in skeletal muscle to high altitude: design and rationale of the first study from the Kilimanjaro Biobank